Growing Blueberries and Blackberries in southwest Florida
Jeffrey G. Williamson Horticultural Sciences Department
IFAS, University of Florida
Specific cultivars are needed in Florida
• Many different temperate fruits can be grown in Florida.
• Florida’s mild climate requires that low-chill cultivars of these fruits be grown.
• For example, neither the well known ‘Elberta’ peach nor ‘Delicious’ apple can be grown successfully in Florida.
Chilling Requirement
• The amount of exposure to cold temperatures required for the resumption of normal growth the following spring.
• 42-45 F seems to be the optimum temperature range to satisfy the chilling requirement.
• Higher and lower temperatures satisfy the chilling requirement less efficiently.
• Periods of high temperatures during dormancy can negate accumulated chilling.
Florida’s Winter Climate
• Winter chilling is highly variable and unpredictable from year to year.
• Freezes occur during bloom and early fruit development for most early-flowering, low-chill, deciduous fruit species such as blueberries and peaches.
Insufficient Chilling
• Inadequate chilling results in delayed, weak, spring growth.
• Eventually plants become weak, non-productive and may die.
Excessive Chilling
• Excessive winter chilling often results in early flowering followed by freeze damage to flowers and young fruit.
Winter chill unit accumulation
• Map showing typical winter chilling units received during most winters in Florida.
• Chilling varies greatly from year to year.
Chill unit accumulation in north and central Florida beginning November 1* Long-term Average Winter 2010/2011 Winter 2011/2012
Date Alachua Polk Alachua Polk Alachua Polk
Dec. 15 182 46 346 146 139 15
Dec. 31 283 85 520 254 195 22
Jan. 15 384 127 664 307 275 81
• Winter chill accumulation is highly variable by year. • Winter chilling was well above average during 2010/2011 and much below average in 2011/2012.
*Data taken from the AgroClimate website.
Florida blueberry production by year An example of the effects of chilling and freezes
on production *
0
5
10
15
20
25
Blue
berr
y Pr
oduc
tion
(mill
ion
poun
ds)
20082009201020112012
2008
2009
2010
2011
2012
2011- above average chill accumulation coupled with little to no freeze damage = record crop. 2012 – below average chill accumulation and severe February freeze = reduced production. *Data taken from the USDA Agricultural Marketing Service.
High chill Year No freezes
Low chill year + freezes
Freezes and Frosts
• Freezes and frosts probably reduce yields of temperate fruit crops more than any other single factor in Florida. There are two types of freezes.
Types of Cold Weather Events
• Freeze - generally used to describe an invasion of a cold, dry, air mass. Winds usually in excess of 5 mph. Often referred to as advective freezes. Usually occur in late winter, less common in late March and April.
• Frost – (radiation frost of freeze). Associated with calm winds (0-3 mph) and clear skies. The most common type of freeze during spring bloom periods in most fruit growing areas.
Windy freezes
• Most common in winter months (Jan. and Feb.).
• Temperatures are uniform over a given area. • Plant tissue temperature is similar to air
temperatures. • Often associated with a dry air mass.
– Dry air increases evaporative cooling when irrigation is used for protection.
Spring frosts • Usually occur on still nights with clear skies. • Without wind to mix the air, cold pockets can
develop in low areas. • Temperatures may not be uniform for a given
area. • Plant tissue can be several degrees colder than air
temperatures. • Cloud cover, slight wind, and high dew point
temperatures are helpful at moderating temperatures during radiation frosts.
Example of a frost night
• Predicted minimum temperature is 33 F. • Predicted dew point temperature is 22 F. • Predicted wind speed is 0-1 mph. • Predicted cloud cover is for clear skies.
– Plant tissue temperatures can be 29 or 30 F when the air temperature is 33 F. The result can be damage to sensitive plant tissue at above freezing air temperatures.
– Plant tissue varies in its sensitivity to cold temperatures based on its stage of development.
Water vapor content of air
• The amount of water vapor in the air has a direct effect on the rate of heat loss (cooling) during a radiation freeze.
• The higher the water vapor content of the air, the slower the radiant heat loss from the orchard.
• Use dew point temperature, not relative humidity to assess the water vapor content of air.
Freezes – what can you do?
• Examples of active freeze protection – Overhead irrigation – Outdoor lighting – Covers
• Examples of passive freeze protection – Irrigate soil the day before a freeze. – Remove vegetation and mulch from around plants. – Select site which provides protection from freeze.
Overhead irrigation – primarily used for freeze protection in commercial plantings
Most commercial fields require protection several times per year
Overhead irrigation for freeze protection is not recommended for home gardeners but if used, sufficient water application rates and thorough coverage are needed.
Heavy ice loads can break canes and uproot plants
Clear ice is usually a sign of successful protection
Site Selection
• Adequate sunlight exposure. • Adequate soil drainage. • Sufficient space for mature plant. • Near source of high quality water for irrigation. • Protection from freezes and spring frosts. • Soil test before planting. • Remove difficult to control perennial weeds (wild
brambles, smilax, etc.)
Adaptation of mineral soils (sands) for blueberry production in Florida
• Ideal blueberry soils are coarse, acidic, and high in organic matter.
• Few soils in Florida are naturally suited for blueberry production.
• Good blueberry soils in Florida tend to be in frost pockets.
• Most commercial blueberry production in Florida is on highly amended sandy soils.
Most Florida soils need additional organic matter Pine bark is commonly used for soil amendments and mulch
New planting in pine bark on a sandy soil
Plants are grown on top of soil in beds of pine bark
Planting and establishment
• Soil test several months before planting and make necessary adjustments.
• Plant temperate fruit crops in dormant season - late winter or early spring.
• Can plant in late spring or summer if you have irrigation.
• Plant at depth the tree was grown in the nursery. • Amend backfill with organic matter. • Irrigate original root ball until tree is established.
Pruning for young plant establishment
• Blueberries are usually cut back to about 10 to 15 inches at planting to remove most flower buds and adjust the root:shoot ratio.
Young Plant Establishment
• Fruit on young plants
can inhibit leaf and shoot development and predispose plants to blueberry stem blight.
Blueberry Plant Establishment
• Fruit on plant (left) has prevented leaf development. The plant is beginning to dieback from the shoot tips.
Young Plant Establishment
• Adjust root:shoot ratio; reduce transpiration from leaf surfaces until root establishment occurs and root function resumes.
• Remove fruit and flowers from young plants which increase plant stress and slow vegetative growth – Benefits - faster plant establishment and potential
for significant crop production sooner
Irrigation • Plant water demands are related to the stage of plant
growth and the weather. – Winter – dormant or semi-dormant plants require little
water. – Water requirements increase rapidly during bloom and
spring growth. The fruit development period is critical for large, high-quality fruit.
– As the canopy develops and the days become longer and warmer, water requirements increase.
– Water requirements decrease in the fall as temperatures cool and day lengths become shorter.
– Blueberries have shallow root systems and require frequent, light irrigations in the absence of rain.
Excavated mature blueberry plant – know where the root system is located.
Excavated blueberry plant with a typical shallow root system.
The majority of roots are located in the top 5 to 6 inches of soil profile.
Soil depth (inches)
Soil treatment Percent of total root system
0 to 4 Bark bed 44
Bark incorporated 46
4 to 7 Bark bed 37
Bark incorporated 45
7 to 10 Bark bed 19
Bark incorporated 8
Know where the root system is located: Blueberry roots at three soil depths for two soil management systems.
Match your system to your soil type Example: Micro-irrigation in Blueberry:
• Root zone coverage is critical in pine bark culture where lateral water movement is limited.
Micro-sprinkler
Drip irrigation
• Coverage of the root system can be limited depending on the soil characteristics.
• Double-line drip is most common.
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T0-4h T0-8h
Ro-Drip
12” 8”
25” 15”
Pine bark incorporated beds with double row drip irrigation
Newer system - pine bark incorporated beds with woven fabric ground cover and double row drip
irrigation
Bark incorporated beds with ground cover
Blueberries
• Many rabbiteye and southern highbush varieties will grow in Florida.
• Advantages – healthy, relatively low maintenance, long season, excellent cultivars, attractive form.
• Disadvantages – cross-pollination, specific soil requirements, birds.
• Suggested reference- Blueberry Home Gardener’s Guide – EDIS website UF.
Blueberry types
• Rabbiteye varieties are best suited in Ocala and points north into Georgia.
• Southern highbush varieties are best suited for Gainesville and points south to Arcadia.
• Early ripening • Popular in central and
north-central Florida
• Darker berry color, lower firmness
• Early bloom
• Vigorous, upright growth habit, excellent field survival
• Low chill (Gainesville-south)
• Blooms 1 week before ‘Star’
• Ripens with ‘Star’
• Excellent fruit quality, but berries are tart until fully ripe
• High yield potential, survives well in the field
• Often paired with ‘Emerald’ • A popular cultivar south of I-4 • Very susceptible to rust leaf spot –
requires fungicide sprays
• Low chill requirement
• Vigorous, spreading bush
• Often planted with ‘Jewel’ • Popular south of I-4.
• Large fruit size, good quality, tight clusters
• High yield potential
• Blooms 1 week earlier than ‘Star’
• Long harvest period
• Vigorous, compact growth habit, good survival
• Color can be non-uniform (red on back of berry)
• Blooms mid-late (between ‘Emerald’ and ‘Star’)
• High yield potential, long picking season
• Very firm fruit, potential for mechanical harvest
• Low chill, early bloom (mid January in Gainesville)
• Very early ripening, ≈20 days before ‘Star’
• Excellent flavor, medium sized fruit
• Susceptible to stem blight – field survival is marginal in FL
Bacterial leaf scorch - Meadowlark
Evergreen – Arcadia,(1/16/14)
Availability of Florida Blueberry Cultivars
• Blueberry cultivars released by the University of Florida are patented.
• For licenses to propagate UF blueberry cultivars, contact Florida Foundation Seed Producers WWW.FFSP.net (John Beuttenmuller [email protected]).
• Phone – (352) 392-9446.
Blueberry Pollination
• Blueberry varieties
benefit from cross-pollination.
• Plant more than one cultivar close together.
• Bumblebees are very efficient pollinators.
• Honey bees are effective because of their high populations.
BEES NO BEES
Fertilization
• Blueberries prefer frequent light applications of a balanced fertilizer with ammonium or urea as the N source (azalea, Camelia or blueberry formulations)
• Often 12-4-8, or similar formulation. • Controlled-release fertilizers also work well.
NH4 NO3
‘Sharpblue’ SHB
From Rebecca Darnell, Horticultural Sciences Dept., IFAS, UF
Pruning established blueberry plants in Florida
• Summer hedging and topping – Usually mechanical (non-selective)
• Dormant pruning – Cane renewal and detailed hand-pruning
Typical appearance of non-pruned blueberry plant during fall
Typical appearance of pruned blueberry plant during fall
Flower bud development on Misty defoliated in September (left) and
December (right)
No selective cane renewal pruning
Selective cane renewal pruning
Numerous new canes resulting from cane renewal pruning
Summer hedging and topping
Summer hedging and topping
Rough mechanical pruning cuts
Cane renewal pruning (base pruning) to thin out canopy and stimulate new cane development
Individual cuts may be rough; touch-up hand pruning is often needed.
Highbush blueberry, before (left) and after winter pruning
Courtesy of Bill Cline, N.C. State University
Remove thin, twiggy “matchstick” wood during routine winter pruning AND with summer hedging
after harvest
KEEP REMOVE
KEEP REMOVE
Courtesy of Bill Cline, N.C. State University
Healthy vs “matchstick” fruiting wood
Courtesy of Bill Cline, N.C. State University
Misty overfruiting
Blueberry pests, diseases and problems
Nutrient deficiency
Phylosticta Leaf Spot
Phyllosticta leaf spot
Gloeosporium leaf spot aka anthracnose
Septoria Leaf Spot
Septoria leaf spot
Courtesy of Phil Harmon
Courtesy of Phil Harman
Rust
Flower bud development on Misty defoliated in September (left) and
December (right)
• Birds, especially cedar
waxwings, are a serious pests of blueberry
Botrytis flower blight
algal stem canker Cephaleuros virescens
More common in central and southwest Florida than in north Florida. Prune out diseased Wood.
Bacterial leaf scorch - Meadowlark
Foliage-feeding insects
Sooty mold
Scale on blueberry
Thrips
Thrips damage
Flower thrips injury on blueberries
Frankliniella spp. • Stained brown • Flowers
• Scars on fruit
• Drop in yield
a
Symptoms of Chilli thrips infestation
Bronzing
Shoot Die-back
Blueberries
Blueberry gall midge damage – once thought to be freeze damage.
Raspberry/Blackberry
• Raspberry ideal conditions – sunny, cool temperatures. – Regions of highest commercial yields – Washington
State, British Columbia, and parts of Chile. – Do not like Florida’s hot, humid climate
• Blackberry – lower chill requirement and tolerates heat better than raspberry. – Grown in the southeastern U.S. and across the Gulf
Coast states as well as California and the Pacific NW. – Chilling of many cultivars is still be too high for SW
Florida.
Growth and fruiting habit
• Perennial root and crown system; biennial canes. – Primocanes – canes that emerge and grow vegetatively (may or may
not fruit the first year). – Floricanes – Canes that developed the previous year and bear fruit the
second year before dying. Fruiting habit – Primocane fruiting – will fruit in late summer/fall on upper 1/3 of primoncanes. The lower flower buds open the following year. Can potentially get two crops per year. Floricane fruiting – fruits only on floricanes (second year canes). After fruiting the floricanes die.
3-wire vertical trellis
Canes are tied to wires
4-wire V trellis
Floricanes tied to wires
Floricanes tied to upper wire
4-wire V trellis
4-wire V trellis
Standard Pruning for V trellis
• Floricanes are tied to the trellis wire to form a v-shaped canopy.
• Primocanes are allowed to grow in the middle of the V.
• Floricanes are removed after fruiting. • The primocanes are tied to the wires and
become next year’s floricanes.
Raspberry/blackberry
Soil – well-drained sandy loam soil. Do not tolerate poor drainage Water table should be at least 3 ft. below the soil surface. Roots grow best at temps below 60 F. Soil pH 6.0 – 6.5. Respond well to mulch.
Blackberry
• Blackberries and can be
grown in much of Florida. • Erect types include Brazos,
Kiowa. Generally lower chill requirements.
• Thornless Natchez and Ouachita. ≈ 400 chill hours.
• Thornless are generally too high-chill for central Florida.
‘Kiowa’
• Thorny • Moderate chilling
(about 300 hrs) • Productive • Large size • Good for local sales • Poor distant shipper • Grown commercially in
Guatemala.
‘Tupy’ very low chill, thorny.
‘Ouachita’ in north-central Florida
‘Natchez’
• 2007, Arkansas • Ripens one week prior to
Ouachita in Arkansas. • Yields have been large,
about twice that of Arapaho (in Ark.)
• Berry size is large: 8-10 g • Berries are long, and remain
large season long
Some major pests in South Ga.
• Orange cane blotch • Planting on plastic
appears to help reduce this problem
• Control is usually accomplished with copper fungicides
Common blackberry diseases • Anthracnose – small purple lesions on canes. Remove and
burn infected canes. • Leaf spots – dark red spots with white centers. • Crown gall – soil-borne bacterium. Tumors on crown. Spreads
through wounds. • Rosette (double blossom) – Abnormal flowering, witches
broom effect, Remove infected canes to the ground after harvest. Can become systemic.
• Orange rust – bright orange masses on underside of leaves. Can become systemic. Plant removal.
• Orange blotch – cane disease, causes defoliation, Cu fungicides.
Common blackberry pests
• Thrips • Spider mites (dry weather) • Raspberry crown borer • Stink bugs • Spotted wing drosophila (new pest) • Sap beetles – keep ripe fruit picked
Conclusions • Blueberries and blackberries can be successfully grown in
the home garden in SW Florida. • Blueberries have unique soil requirements – low soil pH
and high organic matter content. • Proper cultivar selection is critical (emphasis on low chill
requirement for SW Florida). • Multiple blueberry cultivars are needed for cross-
pollination. There are several to choose from. • Thornless blackberry cultivars are only marginally adapted
to SW Florida due to their higher chilling requirement. • Site selection and preparation are very important for both
fruit types.